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Your search keyword '"Sohou, Zacharie"' showing total 19 results
Start Over Author "Sohou, Zacharie" Publication Type Academic Journals
19 results on '"Sohou, Zacharie"'

7. Tidal Impacts on Zooplankton Dynamics in a Major Ocean-Lagoon Channel: Insights from a 25-Hour Intensive Survey in the Cotonou Channel, Benin.

Author

Akodogbo, Hervé Hotèkpo, Dossou-Sognon, Fridolin Ubald, Ouinsou, François Talomonwo, Avocegan, Thalasse Tchémangnihodé, Kouglo, Junior Patric, Okpeitcha, Olaègbè Victor, Assogba, Arnaud, Sohou, Zacharie, Morel, Yves, and Chaigneau, Alexis

Subjects
PEARSON correlation (Statistics), PRINCIPAL components analysis, SPECIES diversity, ANALYSIS of variance, ROTIFERA, LAGOONS
Abstract

This study investigates the effects of tidal cycles on the zooplankton community within the Cotonou Channel, an important waterway connecting the large Nokoué Lagoon to the Atlantic Ocean in Benin. From the determination of zooplankton composition from 25-hour samples collected in July 2020, alpha diversity indices and abundance were assessed, while relationships between biotic and abiotic parameters were analyzed through Pearson correlation, analysis of variance, and principal component analysis. A total of 66 zooplankton taxa were identified, with rotifers exhibiting the highest species richness (35 taxa), while copepods dominated in abundance (71%). Zooplankton abundance varied significantly, ranging from 2 to 95 ind L−1 depending on the tidal phase. A negative correlation was found between species richness (r = −0.51, p < 0.01) and increasing salinity (3–37), indicating that higher salinity reduced diversity (r = 0.06, p > 0.05). Resilient species like Synchaeta bicornis persisted despite salinity changes. The tidal cycle structurally altered the zooplankton community, with abundance and diversity peaking at different phases, notably higher at high tide (15 ind L−1.) These initial findings underscore the complex interactions between tidal dynamics and estuarine biodiversity, suggesting the need for further research across different tidal and seasonal conditions to inform effective management and conservation efforts. [ABSTRACT FROM AUTHOR]

Published
2024
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10. Growth and reproduction of the shrimp population in a lagoon system in southern Benin (West Africa).

Author

Sintondji, S. Wilfried, Sohou, Zacharie, Baetens, Katrijn, Lacroix, Geneviève, and Fiogbé, Emile D.

Subjects
*SHRIMP populations, *REPRODUCTION, *LAGOONS, *PENAEUS monodon, *LIFE cycles (Biology), *MACROBRACHIUM
Abstract

The aim of this work was to characterize the growth and reproduction dynamics of shrimp in the Lac Nokoué-Chenal de Cotonou complex. The results of one year's sampling from five stations (North, South, East, Central and West) of the lagoon complex revealed that linear growth in size in Lake Nokoué is decreasing over time in Macrobrachium macrobrachion (the most representative species of the genus Macrobrachium), but positive in Penaeus notialis (the most representative species of the genus Penaeus). Size-weight relationships indicate that the lowest growth coefficient (b = 1.56) is obtained in immature males of Macrobrachium felicinum , while the highest growth coefficient (b = 3.39) is obtained in mature females of Macrobrachium vollenhovenii , with an average of 2.84 for all shrimp species over both sexes considered. The χ 2 test indicated that only the species Macrobrachium vollenhovenii has a significant sexual imbalance in favour of females in Lake Nokoué. Fisher's Least Significant Difference test indicated that the estimated first sexual maturity sizes in Macrobrachium vollenhovenii and M. macrobrachion are significantly different from those estimated in M. felicinum at the α = 0.05 threshold. However, the same test indicates that there is not enough evidence to differentiate the sizes of first sexual maturation in M. vollenhovenii and M. macrobrachion. This work revealed that Penaeus monodon was the only species to show better positive growth within all its groups in Lake Nokoué while exposed to anthropogenic effects. A gradual average increase in the size of Penaeus notialis in Lake Nokoué is found between the beginning and end of the saline intrusion (which confirms the life cycle of the species presented). Species of the genus Macrobrachium showed good reproductive capacity, with the absence of sexually mature Penaeus in this lagoon. [ABSTRACT FROM AUTHOR]

Published
2024
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11. The Grand Popo beach 2013 experiment, Benin, West Africa: from short timescale processes to their integrated impact over long-term coastal evolution

Author

Almar, Rafael, Hounkonnou, Norbert, Anthony, Edward J., Castelle, Bruno, Senechal, Nadia, Laibi, Raom, Mensah-Senoo, Trinity, Degbe, Georges, Quenum, Mayol, Dorel, Matthieu, Chuchla, Remy, Lefebvre, Jean-Pierre, du Penhoat, Yves, Laryea, Wahab Sowah, Zodehougan, Gilles, Sohou, Zacharie, Addo, Kwasi Appeaning, Ibaceta, Raimundo, and Kestenare, Elodie

Published
2014

12. Distribution model of shrimp species in Lake Nokoué, southern Benin, West Africa.

Author

Sintondji, S. Wilfried, Sohou, Zacharie, Goussanou, Appolinaire, Godome, Théophile, Baetens, Katrijn, Lacroix, Geneviève, and Fiogbé, Emile D.

Subjects
*PENAEUS monodon, *LIFE cycles (Biology), *MACROBRACHIUM, *SHRIMP fisheries, *LAKES, *SHRIMPS
Abstract

The aim of this work was to evaluate the spatial and temporal distribution of shrimp species in the Lake Nokoué-Cotonou Channel complex for an efficient management of the fishery. The results of one year sampling from five stations (North, South, East, Central and West) in the complex revealed the following proportions: Penaeus notialis 73.68%, Macrobrachium macrobrachion 13.81%, Macrobrachium vollenhovenii 5.36%, Penaeus monodon 2.68%, Macrobrachium felicinum 2.20%, Penaeus kerathurus 1.72%, Macrobrachium cf. zariquieyi 0.27%, and Macrobrachium equidens 0.27%. The species M. cf. zariquieyi and M. equidens were never reported from Benin, but are now found in Lake Nokoué. Spatially, Penaeus (Penaeus notialis) are more abundant in the west (Acadja concentration zone), while Macrobrachium (Macrobrachium macrobrachion) are more dominant in the east (near the Ouémé entrance) and north (near the Sô entrance) of the lake. Penaeus are strongly present in the lagoon complex from January to August, while Macrobrachium are more abundant in Lake Nokoué from September to December. Spearman's correlation analysis revealed that increasing salinity, pH, transparency and total dissolved solids (TDS) positively influenced the abundance of P. notialis , while increasing salinity, pH, transparency, and TDS negatively influenced the abundance of M. macrobrachion at the 5% significance level. For an efficient management of the shrimp fishery, it is desirable that the shrimp fishery in Lake Nokoué, mainly in the Cotonou Channel, which is a very sensitive area for their seasonal migrations, benefits from at least three months of respite per year, from November to January. This period corresponds to the strong migration of juvenile Penaeus towards the lake. This should allow many Penaeus to grow up and breed at least once in their lives, according to the species' life cycle presented. [ABSTRACT FROM AUTHOR]

Published
2023
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13. Impact of the citizen science project COLLECT on ocean literacy and well-being within a north/west African and south-east Asian context.

Author

Severin, Marine I., Akpetou, Lazare Kouame, Annasawmy, Pavanee, Asuquo, Francis Emile, Beckman, Fiona, Benomar, Mostapha, Jaya-Ram, Annette, Malouli, Mohammed, Mees, Jan, Monteiro, Ivanice, Ndwiga, Joey, Neves Silva, Péricles, Nubi, Olubunmi Ayoola, Sim, Yee Kwang, Sohou, Zacharie, Shau-Hwai, Aileen Tan, Woo, Sau Pinn, Zizah, Soukaina, Buysse, Ann, and Raes, Filip

Subjects
BEACHES, CITIZEN science, WELL-being, MARINE debris, ATTITUDES toward the environment, LITERACY, CITIZEN attitudes, SCIENTIFIC literacy
Abstract

Plastic pollution is both a societal and environmental problem and citizen science has shown to be a useful tool to engage both the public and professionals in addressing it. However, knowledge on the educational and behavioral impacts of citizen science projects focusing on marine litter remains limited. Our preregistered study investigates the impact of the citizen science project Citizen Observation of Local Litter in coastal ECosysTems (COLLECT) on the participants’ ocean literacy, pro-environmental intentions and attitudes, well-being, and nature connectedness, using a pretest-posttest design. A total of 410 secondary school students from seven countries, in Africa (Benin, Cabo Verde, Côte d’Ivoire, Ghana, Morocco, Nigeria) and Asia (Malaysia) were trained to sample plastics on sandy beaches and to analyze their collection in the classroom. Non-parametric statistical tests (n = 239 matched participants) demonstrate that the COLLECT project positively impacted ocean literacy (i.e., awareness and knowledge of marine litter, self-reported litter-reducing behaviors, attitudes towards beach litter removal). The COLLECT project also led to higher pro-environmental behavioral intentions for students in Benin and Ghana (implying a positive spillover effect) and higher well-being and nature connectedness for students in Benin. Results are interpreted in consideration of a high baseline in awareness and attitudes towards marine litter, a low internal consistency of pro-environmental attitudes, the cultural context of the participating countries, and the unique settings of the project’s implementation. Our study highlights the benefits and challenges of understanding how citizen science impacts the perceptions and behaviors towards marine litter in youth from the respective regions. [ABSTRACT FROM AUTHOR]

Published
2023
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14. Characterization of a West African Coastal Lagoon System: Case of Lake Nokoué with Its Inlet (Cotonou, South Benin).

Author

Sintondji, Sèlomè Wilfried, Sohou, Zacharie, Baetens, Katrijn, Lacroix, Geneviève, and Fiogbé, Emile Didier

Subjects
LAGOONS, DISSOLVED oxygen in water, SALTWATER encroachment, FRESH water, LAKES, FLOODS, STREAMFLOW, RAINFALL, SEAWATER salinity
Abstract

The purpose of this work was to investigate the physical and chemical dynamics of Lake Nokoué for its efficient management. For this purpose, two sampling campaigns per month from five stations (North, South, Central, East and West) were conducted for a period of one year (November 2020 to November 2021). Physic and chemical parameters (temperature, salinity, depth, water transparency, pH, dissolved oxygen and total dissolved solids) were measured and wet substrate samples were collected to study the granulometry. Data analysis revealed that Lake Nokoué is mainly affected by two regimes: flooding and low water. Flooding, which is not directly related to rainfall, did not begin until one month after the major rainy season in June. The sources that contributed to the flooding of Lake Nokoué were the freshwater tributaries coming mainly from the Ouèmé River and the flow of the Sô River from August to November. The inflow of fresh water contributed to the decrease in salinity and transparency of the lake from the east to the south. During the low water period (from December to July), Lake Nokoué is characterized by an increase in salinity and transparency from the south to the northeast due to the massive intrusion of sea water into the lake. The highest dissolved oxygen levels are observed in the south and center (5.92 ± 0.46 mg/L) while it varies greatly in the north and west (Eichhornia crassipes concentration zone) during flooding. The average annual depth of Lake Nokoué was 1.47 ± 0.66 m with an average annual pH of 6.85 ± 0.56. [ABSTRACT FROM AUTHOR]

Published
2022
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15. Climate Resilience and Adaptation in West African Oyster Fisheries: An Expert-Based Assessment of the Vulnerability of the Oyster Crassostrea tulipa to Climate Change.

Author

Mahu, Edem, Sanko, Salieu, Kamara, Allieubakarr, Chuku, Ernest Obeng, Effah, Elizabeth, Sohou, Zacharie, Zounon, Yaovi, Akinjogunla, Victoria, Akinnigbagbe, Ruth Oluwatoyin, Diadhiou, Hamet Diaw, and Marchant, Robert

Subjects
CRASSOSTREA, TULIPS, OYSTERS, FISHERIES, CLIMATE sensitivity, CLIMATE change
Abstract

Globally, over 85% of oyster reefs have been lost, and the combined effects of climate change, ocean acidification, and environmental degradation, including pollution and mangrove overharvesting, could further reduce global oyster fisheries in the coming decades. To understand the level of impact of climate change on the oyster fishery in West Africa, an expert-based vulnerability assessment to climate change was conducted for the West African mangrove oyster (Crassostrea tulipa, Lamarck 1819). Using a combination of the exposure of the oyster to climatic stressors (estuarine temperature, salinity, river flow, surface run-off, sea level rise, and estuarine circulation) together with an assessment of sensitivity to these stressors, we estimate the overall vulnerability of C. tulipa to climate change. A very high overall climate vulnerability score of 12 on a scale of 16 was calculated for C. tulipa. While the overall climate exposure score in the West African coastal region remained high, the high sensitivity of C. tulipa to hydrographic conditions of its habitat, in particular salinity, coupled with its sessile and habitat-specific nature, pushed the overall vulnerability to very high. Early life history settlement requirements, adult mobility, and sensitivity to salinity were the three most important biological and sensitivity attributes that determined the vulnerability score. By leaving each of these three sensitivity attributes out of the analysis, the overall vulnerability score was reduced to 9 (i.e., from very high to high). A negative directional effect of climate change, coupled with a low potential for change in distribution, threatens the C. tulipa fishery in a long-term adverse climate scenario. We recommend management efforts that incorporate climate resilience and adaptation practices to prioritize recruitment success, as well as the development of breeding lines with climate-resilient traits. [ABSTRACT FROM AUTHOR]

Published
2022
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16. Shoreline and Beach Cusps Dynamics at the Low Tide Terraced Grand Popo Beach, Bénin (West Africa): A Statistical Approach.

Author

Sohou, Zacharie, Bonou, Frédéric, Angnuureng, Donatus B., Almar, Rafael, Alory, Gael, and du Penhoat, Yves

Subjects
*SHORELINE monitoring, *BEACHES, *TIDES, *DATA analysis, *ORTHOGONAL functions
Abstract

Bonou, F.; Angnuureng, D.B.; Sohou, Z.; Almar, R.; Alory, G., and du Penhoat, Y., 2018. Shoreline and beach cuspsdynamics at the low tide terraced Grand Popo beach, Bénin (West Africa): A statistical approach. In: Almar, R.; Almeida, L.P.; Trung Viet, N., and Sall, M. (eds.), Tropical Coastal and Estuarine Dynamics. Journal of Coastal Research, Special Issue No. 81, pp. 138–144. Coconut Creek (Florida), ISSN 0749-0208. This paper presents the description of a 2-dimensional shoreline and 3-dimensional shoreline behaviour around a 'storm free' microtidal beach from a 3-year video observation using empirical orthogonal function (EOF) analysis. The EOF method is applied successfully to delineate 2D and 3D developments that show the beach evolution influenced by the action of waves and tides. The EOF model results are in agreement with measurements that reflect the morphological concepts for the 2D and 3D cases: the first temporal EOF mode which accounts for an overwhelming 80% of shoreline variation reflects the alongshore-averaged cross-shore migration (2D) largely influenced by waves while the higher eigenfunctions with 20% shoreline variation reflect beach deformation/irregularities (3D). Shoreline location is correlated to cross-shore energy flow from waves, while 3D is associated to the longshore energy flow. The influence of wave height increases cross-shore uniform migration and beach seasonality. The results show that with EOF method, beach cusps are clearly identified for 3D developments to be evaluated. Beach cusps are well observed at low tides on video images. Tide and cusps increase the importance of short term events and deformation; at the lowest high tide mark, beach cusps were observed on higher spatial functions of EOF. This indicates that a study of these morphological features as a coupled system, promotes their contribution in predicting 2D and 3D shoreline changes. [ABSTRACT FROM AUTHOR]

Published
2018
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17. Waves Forcing Climate on Bénin Coast, and the Link with Climatic Index, Gulf of Guinea (West Africa).

Author

Hervé Hounguè, Guy, Kounouhewa, Basile B., Almar, Rafael, Lefebvre, Jean-Pierre, Sohou, Zacharie, Houépkonhéha, Mathias, and Tokpohozin, Bernard

Subjects
WAVE forces, CLIMATE change, COASTAL changes, OCEAN waves, DATA analysis
Abstract

Hounguè, G.H.; Kounouhéwa, B.B.; Almar, R.; Sohou, Z.; Lefebvre, J-P.; Houépkonhéha, M., and Tokpohozin, B., 2018. Waves forcing climate on Bénin coast, and the link with climatic index, Gulf of Guinea (West Africa). In: Almar, R.; Almeida, L.P.; Trung Viet, N., and Sall, M. (eds.), Tropical Coastal and Estuarine Dynamics. Journal of Coastal Research, Special Issue No. 81, pp. 130–137. Coconut Creek (Florida), ISSN 0749-0208. Bénin's coastline is currently undergoing very marked erosion. This erosion is the consequence of the impact of swells from the South Atlantic and is accentuated by human development. These swells, from weak to moderate energies, drive Bénin's coastline evolution. Although crucial, the characteristics of this forcing are not accurately defined. From instantaneous outputs of ERA40 and ERA-Interim's sea state parameters, the annual and seasonal average of significant wave height (Hs), peak period (Tp) and direction (Dir) were determined to characterize wave forcing and extreme event on Bénin Coast after a validation using the data of the ALIZEE buoy installed 6 km off the coast of Bénin in December, 2015. Hindcast data analysis indicates an important if increasing trend of Hs and Tp. A weak trend of peak direction towards the South West clockwise is observed between 1957 and 2016. The intra-annual variability of Hs shows a marked seasonality, the first one characterized by strong swells from April to October and the second one by moderate swells from October to April. Offshore wave height is positively correlated with AMO (Atlantic Multidecanal Oscillation). [ABSTRACT FROM AUTHOR]

Published
2018
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18. From seasonal flood pulse to seiche: Multi-frequency water-level fluctuations in a large shallow tropical lagoon (Nokoué Lagoon, Benin).

Author

Chaigneau, Alexis, Okpeitcha, Olaègbè Victor, Morel, Yves, Stieglitz, Thomas, Assogba, Arnaud, Benoist, Morgane, Allamel, Pierre, Honfo, Jules, Awoulmbang Sakpak, Thierry Derol, Rétif, Fabien, Duhaut, Thomas, Peugeot, Christophe, and Sohou, Zacharie

Subjects
*LAGOONS, *FLOOD forecasting, *HYDROLOGIC cycle, *SEASONS, *ATMOSPHERIC temperature, *WATER levels, *FLOODS
Abstract

This study investigated the main water-level (WL) variability modes of Nokoué Lagoon in Benin (West-Africa). The average WL ranges between 1.3 and 2.3 m between the low- and high-water seasons. Seasonal as well as weak interannual variations between 2018 and 2019 are driven by rainfall regime over the catchment and associated river inflow. At sub-monthly scales, the lagoon is tidally choked: ocean tides can reach 90 cm, whereas in the lagoon semi-diurnal and diurnal tides hardly reach few centimeters. Choking conditions vary with river inflow and ocean tide amplitude, correctly represented by a simple tidal choking model. Diurnal modulation and asymmetry of the tide are stronger (weaker) during high (low) water period. We also observed WL variations of ±5–10 cm at a fortnightly frequency, stronger during wet (high-water) season. Superimposed on the seasonal, fortnightly and tidal WL variations, we further observed short-term high-frequency seiche events. Mostly observed during dry (low-water) conditions, they are characterized by typical standing-wave oscillations of 5–10 cm amplitudes and 3 h periods. They are forced by the passage of fast-moving squall-lines that induce strong wind variations, heavy rainfalls and rapid drop-off of the air temperature. Results obtained in this study provide useful metrics for the validation of flood forecasting models to be implemented in Benin, and elsewhere on the West African coastline. • Nokoué Lagoon is strongly tidally choked due to bottom friction in the Cotonou channel. •WL and tidal choking conditions depend on extreme seasonal hydrological cycle. •Fortnightly WL variations (±5–15 cm) are observed and are stronger during wet season. •High-frequency seiche events have 5–10 cm amplitudes and 3 h periods. •Seiche events are forced by the passage of fast-moving squall-lines. [ABSTRACT FROM AUTHOR]

Published
2022
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19. Seasonal and interannual variability of salinity in a large West-African lagoon (Nokoué Lagoon, Benin).

Author

Okpeitcha, Olaègbè Victor, Chaigneau, Alexis, Morel, Yves, Stieglitz, Thomas, Pomalegni, Yves, Sohou, Zacharie, and Mama, Daouda

Subjects
*SALINITY, *HALOCLINE, *TERRITORIAL waters, *BODIES of water, *SEASONS, *LAGOONS
Abstract

Nokoué Lagoon in the South of Benin is a large intermittent coastal water body in West Africa, which supports one of the largest inland fisheries of the region. The seasonal and interannual variability of its salinity was studied, based on 3 years of monthly surveys (Dec 2017–Dec 2020). This dataset allows us to identify fine-scale salinity structures and to better understand the salinization/desalinization processes at seasonal scales. During the rainy season from May to November, under the influence of large freshwater inflows from the rivers on its northern shores, the lagoon desalinizes to a salinity of zero in October–November. During the dry season from December to April, under the effect of the ocean tide, Nokoué lagoon becomes progressively saltier, reaching typical salinities of ∼25 in April. On average, the Nokoué lagoon is saltier in its southwestern part and fresher towards the river's mouths. Vertical salinity stratification is largest in December at the beginning of the main dry season. The lagoon displays a very marked interannual variation with mean surface (bottom, respectively) salinity of 25 (25) in April 2018 and 2020, respectively, against 16 (18) in April 2019. In the absence of river inflow data, a box model shows that the average salinity of the lagoon is very sensitive to small changes in river inflow (or discharge), with observed interannual differences in salinity induced by small variations of 10–15 m3 s−1 in inflow during the dry season. During the salinization phase, the model suggests that ∼30% of the seawater entering the lagoon during flood-tides remains trapped and enhances the Nokoué lagoon salinity. This model also indicates that a complete desalinization of the lagoon occurs for river inflow greater than ∼50–60 m3 s−1. The general mixing time scale of the lagoon is of 30–40 days. • Salinity of Nokoué lagoon exhibits large seasonal variations from 0 to ∼25. • Differences of salinity of 10–15 can be observed between the surface and the bottom. • Strong interannual salinity variations (16–25) were observed in dry seasons. • A box model suggests a complete desalinization for river inflows of 50–60 m3 s−1 • In dry season, ∼30% of seawater entering the lagoon by flood-tides remains trapped. [ABSTRACT FROM AUTHOR]

Published
2022
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